CN1290963A

CN1290963A - Lead frame and its electroplating method

Info

Publication number: CN1290963A
Application number: CN00101997A
Authority: CN
Inventors: 李圭汉; 李尚勋; 姜圣日; 朴世哲
Original assignee: Samsung Aerospace Industries Ltd
Current assignee: Hanwha Aerospace Co Ltd
Priority date: 1999-10-01
Filing date: 2000-02-04
Publication date: 2001-04-11
Anticipated expiration: 2020-02-04
Also published as: US6469386B1; CN1305132C; TW447055B; JP2001110971A; JP3760075B2; SG91312A1

Abstract

A lead frame for a semiconductor package and a method for manufacturing the lead frame. In the manufacture of the lead frame, a protective layer is formed with nickel (Ni) or Ni alloy on a metal substrate, an intermediate layer is then formed with palladium (Pd) or Pd alloy on the protective layer. Then, Pd and gold (Au) are alternately plated on the surface of the intermediate layer to form an outermost layer including both Pd and Au particles thereon.

Description

Lead frame and electro-plating method thereof

The present invention relates to be used for the lead frame of semiconductor packages and the electro-plating method of lead frame, the preplating lead frame of improved outermost coating and the electro-plating method of lead frame are particularly arranged on metal substrate.

Lead frame constitutes semiconductor packages with semiconductor chip, in encapsulation, except that being used to connect the die to the external circuit, also being used to support semiconductor chip.

Fig. 1 illustrates an example of lead frame.As shown in Figure 1, lead frame 10 comprises pad 11, lead 12 and outer lead 13.Lead frame 10 is made with punching press or etch usually.

Fig. 2 illustrates an example of semiconductor packages.As shown in Figure 2, the semiconductor chip 15 usefulness bonding wires that are installed on the pad 11 are connected to lead 12.Outer lead 13 is electrically connected to external circuit.With resin 14 molding chips 15 and lead 12, to finish semiconductor packages 16.

In the manufacturing of this semiconductor packages,, electroplate the edge and the lead 12 of pad 11 with for example silver (Ag) in order to improve the bonding wire switching performance and the characteristic of improving pad 11 between chip 15 and the lead 12.And, be installed to solderability on the printed circuit board (PCB) (PCB) in order to improve semiconductor packages, the scolder of deposit stanniferous (Sn) and plumbous (Pb) on the presumptive area of outer lead 13.But,, integrity problem is increased electroplating and weld with wet method with resin moulded back.

For addressing this problem, the lead frame of electroplating with pre-has been proposed.By pre-galvanoplastic, before the semiconductor packages operation, on lead frame, form electrodeposited coating with material with good solder wettability.

Fig. 3 illustrates the example of the lead frame made from conventional pre-plating method.Conventional lead frame 20 shown in Figure 3 is that Japan Patent 1501732 is disclosed, it comprise be formed on successively on the metal substrate made from copper (Cu) or copper alloy 21 as nickel (Ni) coating 22 in intermediate layer with as outermost palladium (Pd) coating 23.

In the lead frame 20, Ni coating 22 prevents the Cu of metal substrate 21 or the surface that Fe upwards is diffused into lead frame, and produces Cu oxide or copper sulfide on the framework surface.And there is defencive function on the surface of 23 pairs of nickel coatings 22 of outermost coating that the material Pd that solderability is good constitutes.

In the manufacturing of lead frame 20, carry out preliminary treatment before the plating.But, fault location on the surface of metal substrate 21, because the energy level of defect area is than flawless other regional energy level height, therefore, the Ni electroplating velocity that is used to form Ni coating in defect area than fast in other nondefective zone, owing to cause coating surface coarse with other regional cementability reduction.Particularly, when electroplating Pd on the Ni coating surface that forms on defect area, a large amount of bubble hydrogens that produce in the electrolyte in plating Pd process are introduced in the Pd coating.This is because the deposit potential energy of Pd is identical with the deposit potential energy of hydrogen.And, because the perforation that exists bubble hydrogen to cause makes Pd coating more be easy to generate defective.These defectives in the Pd coating make the oxidation of Ni coating, thereby have damaged bonding wire and solderability.Except that these defectives, the heat treatment of using in the semiconductor manufacturing also can cause the inter-level diffusion in the lead frame, thereby causes weld defect.And the heat treatment meeting makes the oxidation of Pd outermost coating surface, and the intrinsic good solderability of palladium is damaged.

For overcoming above-mentioned defective, other example of the lead frame of the pre-galvanoplastic manufacturing of usefulness has as shown in Figure 4 been proposed.Compare with lead frame 20 shown in Figure 2, lead frame 20 ＇ shown in Figure 4 also are included in gold (Au) film 24 that forms on the Pd coating 23.It is said, with gold (Au) the plating Pd coating of good in oxidation resistance, to prevent Pd coating 23 oxidations of higher solderability.

As mentioned above, the Pd coating oxidation of plating Au on Pd coating to prevent to cause by the heat treatment of using in the semiconductor manufacturing.Improve the solderability in the installation of on PCB, finishing semiconductor-sealing-purpose thus.Except that plating Au, it is important that the profile of gold plate causes the pass to the effect that improves plating Au.But existing plating Au method is not enough to form uniform Au coating on Pd coating.Usually the thickness of Au coating is 0.3 mil, to prevent the Pd oxidation.Regrettably, the resin moulded meeting of EMC that this thick Au coating is used semiconductor subassembly brings negative effect, particularly, and in the time of should considering the Au outermost coating of preceding lead frame and set the cementability of moulding between the resin.With EMC resin moulded in, the EMC resin is very little to the affinity of simple metal or alloy.And, because Au is stronger than the oxidation resistance of Pd.Therefore, EMC molding shell further reduces the bonding force of Au coating, causes the damage that comes off of molding shell.And the bonding force of the difference between this Au coating and the resin causes product reliability to reduce.

This on the other hand thick Au coating also is disadvantageous for manufacturing cost.And the Au coating that forms as the anti oxidation layer of Pd also correspondingly reduces the bonding force between chip and the mould.Compare with the lead frame of routine, Au coating can improve the wettability of scolder when welding.But, in welding procedure owing to react to each other between Au coating and the tin (Sn), after on PCB, installing owing to external impact makes the breakage easily of Au coating.

For addressing these problems, proposed to carry out parcel plating.That is to say, only at the outside plating of lead-in wire Au.But parcel plating need be electroplated the additional masking of usefulness, and this just makes the increase that manufactures a finished product, and has obviously reduced productivity ratio.For this reason, on palladium (Pd) intermediate deposit, form Au coating to prevent the oxidation of Pd coating and don't can increase cost.

United States Patent (USP) has disclosed a kind of lead frame that can overcome above-mentioned defective for No. 5767574, and it comprises the Ni alloy layer that forms successively on metal substrate, Pd electrolytic deposition coating and Pd alloy-layer.Here outermost Pd alloy layer is made of Pd and Au.The expensive defective that can overcome the Pd oxidation and cause with the outermost coating that contains Au with Au.Be limited in the outermost layer with Au and can improve in the semiconductor packages bonding force with resin, and the damaged possibility that PCB is gone up after installing is reduced to minimum.But plating Au can not prevent effectively that bubble hydrogen from infiltrating outermost layer in the outermost coating that with Pd is base.Owing to have the perforation that causes because of bubble hydrogen in the outermost layer, thereby damaged to being positioned at the defencive function of following Pd coating.And, owing to there is perforation, the solderability of bonding wire bonding strength and lead frame is reduced.

For overcoming above-mentioned defective, the purpose of this invention is to provide a kind of lead frame and manufacture method thereof.Improving solderability, the bonding wire bonding strength, in the semiconductor packages with the bonding force of resin with to the protective effect of Pd coating.

With realizing above-mentioned purpose by lead frame manufacturing method of the present invention, method comprises: form protective layer with nickel (Ni) or Ni alloy on the metal substrate; Form the intermediate layer with palladium (Pd) or Pd alloy on the protective layer; On the interlayer surfaces with Pd and (Au) alternatively plate at least once form the outermost layer contain Pd and Au particle.

Preferably alternatively plate forms outermost layer, and no matter Pd or Au all can at first be plated on the electric interbed.

In the formation of outermost coating, on the core position in intermediate layer, at first generally plate Pd, build up gold afterwards again to fill the Pd gap between particles of building up with pulse current.Because the deposit potential energy of Au is less than the deposit potential energy of Pd.Therefore, between the Pd particle, build up the Au particle easily.

By another program of the present invention, a kind of lead frame that is used for semiconductor packages is provided, comprising: the protective layer that forms with Ni or Ni alloy on the metal substrate; The intermediate layer that forms with Pd on the protective layer; Use the outermost layer of the formation of Pd and Au on the Pd intermediate layer.

Among another embodiment, the invention provides the lead frame that is used for semiconductor packages, comprising: the protective layer that forms with Ni or Ni alloy on the metal substrate; The outermost layer that forms with palladium (Pd) and gold (Au) on the protective layer.

In the formation of the electroplating region of the intermediate layer of Pd or Pd alloy and Au or Au alloy, increase pulse current, with sputter or vapour deposition.

To the detailed description of most preferred embodiment, just can better understand foregoing invention purpose of the present invention and advantage in conjunction with the drawings.

Fig. 1 is the plane graph of common lead frame;

Fig. 2 is the part decomposition diagram of semiconductor packages;

Fig. 3 and 4 is sectional views of the example of conventional lead frame;

Fig. 5 is the sectional view by the embodiment of lead frame of the present invention;

Fig. 6 is the sectional view by another embodiment of lead frame of the present invention;

Fig. 7 is the sectional view by another embodiment of lead frame of the present invention;

Fig. 8 is the perspective view that amplify the part of lead frame shown in Figure 7;

Fig. 9 A to 9C is the sectional view that explanation is made by lead frame of the present invention;

Figure 10 is that expression is by lead frame of the present invention and bonding force resin and Comparative Examples and curve chart resin bonding power;

Figure 11 is the solderability curve chart of expression by the lead frame of the solderability of lead frame of the present invention and Comparative Examples.

The lead frame embodiment that is used for semiconductor packages as shown in Figure 5, lead frame comprise with copper (Cu), the metal substrate 31 that copper alloy or iron-nickel (Fe-Ni) alloy constitutes, the protective layer 32 that forms with Ni or Ni alloy on the metal substrate 31.Intermediate layer 33 that forms with palladium (Pd) or Pd alloy on the protective layer 32 and the outermost layer 34 that comprises Pd and Au particle that on intermediate layer 33, forms.

Fig. 6 illustrates another embodiment by lead frame of the present invention.Lead frame 40 among Fig. 6 comprises and is stacked and placed on the metal substrate protective layer 42 and the outermost layer 43 that forms with Ni or Ni alloy on 41 successively.There are the Pd and the Au particle that exist in the lead frame as shown in Figure 5 in the outermost layer 43.

In the foregoing description, outermost metal is not limited to Pd and Au.For example, available silver (Ag) replaces Au.

Fig. 7 illustrates another embodiment by lead frame of the present invention.As shown in Figure 7, lead frame 50 has the protective layer 52 that forms with Ni or Ni alloy on metal substrate 51.The intermediate layer 53 that forms with Pd or Pd alloy on the protective layer 52; The electrodeposited coating 54 of the thin thickness that forms with Au or Au alloy part on the intermediate layer 53.From Fig. 8, can see the position of the electroplating region 54 on the intermediate layer 53.Here, the thickness of electroplating region is the height of 12 molecules.Therefore, as shown in Figure 8, electroplating region 54 makes 53 parts, intermediate layer expose or occupy.The Au alloy of electroplating region 54 usefulness is Au-Pd or Au-Ag alloy preferably.

Fig. 9 A to 9C has illustrated an embodiment who makes by lead frame of the present invention.At first, the metal substrate 31 that preparation is made with Cu, Cu alloy or Fe alloy is shown in Fig. 9 A.Form protective layer 32 at metal substrate 31 usefulness Ni or Ni alloy.Afterwards, shown in Fig. 9 B, on protective layer 32, form intermediate layer 33 with Pd or Pu alloy.Protective layer 32 and intermediate layer 33 can be with adding that pulsed current electricity is coated with or making with sputter or vacuum deposition.Afterwards, on intermediate layer 33, exist Pd and Au particle place to form outermost layer 34 simultaneously, make lead frame 30 (seeing Fig. 9 C).Electroplate formation outermost layer 34 with adding pulse current.In other words, regulate current density and electroplating time, only build up palladium and on 33 surfaces, intermediate layer, generate the palladium point at the core position on the protective layer 32.

Then Au builds up, in the Pd gap between particles that is filled in deposit on the intermediate layer 33.Because Au deposit potential energy is lower than Pd deposit potential energy, thereby between the Pd particle, electroplate Au easily.Finish after the plating Au, the Pd of Ju Jiing recharges the hole site or the minute crack that may exist between Au and the Pd again, causes the lead frame instability, generates outermost layer 34 on intermediate layer 33.

As shown in Figure 8, electroplate Au or Au alloy and on intermediate layer 53, form " electroplating region " 54 that disperses, replace on the intermediate layer, forming outermost " layer " with this.

As mentioned above, alternately build up Pd and Au, can form outermost layer 34 by lead frame of the present invention with galvanoplastic.Form in the outermost electroplating process and add pulse voltage.The square wave of pulse current can be a string positive pulse that is separated by predetermined space.Current waveform also can replace between positive negative pulse stuffing.It also can be the predetermined space between the positive negative pulse stuffing.And current waveform can replace between positive negative pulse stuffing, wherein, modulates each positive negative pulse stuffing with the small-pulse effect string.

And, for improving the uniformity in the intermediate layer 53 made from Pd or Pd alloy.Make lead frame shown in Figure 8 50 with increasing pulse.And with adding high impulse, sputter or sedimentation also can form electroplating region 54 with Au or Au alloy on 53 surfaces, intermediate layer.

In making by the semiconductor packages of lead frame of the present invention, can prevent the Ni that from the protective layer made from Ni or Ni alloy 32, diffuses out with intermediate layer 33, the outermost layer 34 to lead frame in heat treatment process spreads.Therefore can avoid the oxidized or corrosion of lead frame.

Outermost layer 34 is on the intermediate layer 33 or have the electroplating region 54 that comprises Pd and Au particle and have on the surface in intermediate layer 53 of good bonding wire connection performance.The existence of Au also makes the outermost area that occupies through the Pd of oxidation reduce.Can eliminate the defective that often has thus.In addition, because the Pd oxidation appears at after the bonding wire connection, the bonding force between outermost layer 34 and the moulding resin is improved.With Pd and Au alternatively plate the defencive function in intermediate layer 33 is improved, eliminated the perforation that causes by bubble hydrogen.Compare with the outermost layer that only contains Au, outermost layer 34 has been improved the switching performance of solderability and bonding wire by the interaction of Pd and Au.And, because Au or Au alloy can form thin as much as possible.Therefore, and reduce the consumption of Au, reduced manufacturing cost.

Can intactly understand effect in more detail by following example by lead frame of the present invention.

Example 1

By lead frame of the present invention, form the Pd intermediate layer of thick 0.2 microinch, on the Pd intermediate layer, form the outermost layer that contains Pd and Au particle.And being formed in has the outermost lead frame of Au as a comparison case 1 on the Pd intermediate layer, makes on the Pd coating no outermost lead frame as a comparison case 2, is formed in the lead frame as a comparison case 3 that Pd-Au coating is arranged on the Pd intermediate layer.

Lead frame was handled 1 hour 250 ℃ of bakings 5 minutes and at 270 ℃, carried out solderability test.After the lead-in wire bending of lead frame, lead frame is placed on 175 ℃ and handled 1 hour down, wears out 8 hours in 95 ℃ steam subsequently.With diameter is that the spun gold of 1mil carries out bonding wire and connects test.Give the chip be installed on the pad and add bonding power 90 milliwatts (mW) and weld force 100 newton (mN) in the least to lead.To the chip on the pad and lead respectively the weld time of usefulness be 15 milliseconds (msec) and 20 milliseconds (msec).Afterwards, test is connected across the tension force of the spun gold on chip and the lead.

Solderability is connected test, and the results are shown in Table 1 with bonding wire.

Table 1

Project	Comparative Examples 1	Comparative Examples 2	Comparative Examples 3	The present invention
Level number	3L	2L	3L	2．5L
Solderability (%)	20-30	20-30	20-30	90-95
Bonding wire bonding strength (gf)	3．36	2．38	3．75	5．83

Can find out from table 1, all improve by the solderability and the bonding wire bonding strength of lead frame of the present invention.

Example 2

By lead frame of the present invention, forming thickness is the Pd intermediate layer of 0.2 Bo inch.On the Pd intermediate layer of thick 0.2 mil, form the outermost layer that contains Pd and Au.Making has the outermost lead frame of Au as a comparison case 1 on the Pd intermediate layer of thick 0.8 mil, make on the Pd of thick 0.2 mil coating no outermost lead frame as a comparison case 2.

Lead frame carries out solderability test 360 ℃ of bakings 1 minute.With diameter is that the spun gold of 1mil (mil) carries out bonding wire and connects test.Give the chip be installed on the pad and add bonding power 90mW and weld force 100mN to lead.Chip on the pad and be respectively 15msec and 20msec the weld time of lead.Afterwards, test is connected across the tension force of the Au silk on chip and the lead.

Solderability is connected test, and the results are shown in Table 2 with bonding wire.

Table 2

Project	Comparative Examples 1	Comparative Examples 2	The present invention
Level number	3L	2L	2.5L
Solderability (%)	85-95	60-80	100
The minimum bonding strength (gf) of bonding wire	2.65	0.91	7.03
The maximum bonding strength (gf) of bonding wire	7.58	6.86	9.64
The average bonding strength of bonding wire (gf)	4.73	3.55	8.81

Can find out from table 2, all improve by the solderability of lead frame of the present invention and the bonding strength of bonding wire.

Example 3

To the bonding force between the lead frame made in the example 1 test outermost layer and the resin.With two kinds of commercially available heat-setting resins (SL7300 and T16BC) molding lead frame.The result as shown in figure 10.

As shown in figure 10, the outermost lead frame of Pd-Au is arranged on the Pd intermediate layer, for two kinds of resins, the bonding force maximum between its outermost layer and the resin.

Example 4

By lead frame of the present invention, on the metal substrate that Cu makes, form the thick Ni protective layer of 30 microinch.And on the Ni protective layer, form the thick Pd intermediate layer of 0.8 microinch.Then, form 0.03 microinch thick be dispersed in the electroplating region that forms with Au or Au alloy on the Pd intermediate layer.

The electroplating region that forms thick 0.3 microinch with Au or Au alloy on common PPF lead frame is made Comparative Examples 1.Make thick Ni protective layer of 30 microinch and the thick Pd intermediate layer of 1.0 microinch and do not have the lead frame of electroplating region to make Comparative Examples 2.

Lead frame was handled 1 hour down at 275 ℃ in stove, and carried out solderability test.After the lead-in wire bending of lead frame, lead frame is placed under 175 ℃ the temperature and handled 2 hours, afterwards, in steam 95 ℃ aging 8 hours down.With diameter is that the spun gold of 1mil carries out bonding wire and connects test.Add bonding power 90mW and weld force 100mN for the chip be installed on the pad and the lead of lead frame.The chip on the pad and the weld time of lead are respectively 15msec and 20msec, and welding temperature is 215 ℃.Afterwards, test is connected across the tension force of the spun gold on chip and the lead.

In the solderability test, the outer lead of lead frame immerses in the R solder flux, keeps for 5 seconds down at 245 ℃, then, takes out from solder flux.The outer lead area of representing to have solder flux with percentage accounts for the amount of the outer lead gross area.

Solderability is connected the results are shown among Figure 11 of test with bonding wire.

Among Figure 11, hatching is represented the solderability test result, and the curve representation bonding wire connects result of the test.The solderability of Comparative Examples 1 and bonding wire bonding strength are respectively 60% and 2.69gf.The solderability of Comparative Examples 2 and bonding wire bonding strength are respectively 80% and 2.69gf.Compare with the bonding wire bonding strength with 2 solderability with Comparative Examples 1, be improved, be respectively 100% and 5.91gf by the solderability and the bonding wire bonding strength of lead frame of the present invention.

Example 5

Along with the lead-in wire pitch of lead frame and reducing of chip size, the filament that bonding wire is used (capillary) size also reduces, for being consistent with this trend, test has also reduced by the bonding wire bonding strength of lead frame of the present invention used bonding power and weld force.

The test have the thick electroplating region on the Pd intermediate layer of 1.0 microinch by lead frame of the present invention.Test has the lead frame that the thick pd layer of 1.2 microinch is made the Comparative Examples of hash layer.Filament and the diameter that with diameter is 80 microns is that the spun gold of 0.8mil carries out bonding wire and is connected test.

With the bonding power of 60mW, the weld force of 60mN is used the 80mW bonding power at 200 ℃ of following chips that weld through 15msec on the pad that is contained in lead frame.The weld force of 80mN is being carried out welding on the lead of lead frame through 20msec under 220 ℃.

Bonding wire connects test, and the results are shown in Table 3.

Table 3

Project	The present invention	Comparative Examples
The minimum bonding strength (gf) of bonding wire	3.38	1.75
The average bonding strength of bonding wire (gf)	4.57	3.59
The maximum bonding strength (gf) of bonding wire	6.75	5.01

As shown in table 3, be that the Comparative Examples of 1.75gf is compared with the bonding wire bonding strength, bring up to about 3gf by the minimum bonding strength of lead frame of the present invention.

From bonding wire bonding strength, solderability and with aspects such as resin bonding, have the lead frame of a plurality of electrodeposited coatings to have the advantage of Au and Pd coating by of the present invention.And improved these performances, also can reduce by the manufacturing cost of lead frame of the present invention.

Although specifically show and the present invention be described with the preferred embodiments of the present invention.But the those of ordinary skill of the industry should be appreciated that, can not break away from by the determined the spirit and scope of the present invention of claims the various changes on form of the present invention and the details.

Claims

1. the manufacture method of the lead frame of a semiconductor packages comprises:

On metal substrate, form protective layer with nickel (Ni) or Ni alloy;

On protective layer, form the intermediate layer with palladium (Pd) or Pd alloy;

With Pd and gold (Au) alternatively plate interlayer surfaces at least once, form the outermost layer that comprises Pd and Au particle.

2. by the process of claim 1 wherein, form in the outermost step, can at first on the intermediate layer, electroplate Pd or Au at alternatively plate.

3. the lead frame of a semiconductor packages comprises:

The protective layer that on metal substrate, forms with nickel (Ni) or Ni alloy;

The intermediate layer that forms with palladium (Pd) on the protective layer;

The outermost layer that on the Pd intermediate layer, forms with Pd and Au.

4. the lead frame of a semiconductor packages comprises:

The protective layer that on metal substrate, forms with nickel (Ni) or Ni alloy; With

The outermost layer that on protective layer, forms with Pd and Au.

5. the lead frame of a semiconductor packages comprises:

The protective layer that on metal substrate, forms with Ni or Ni alloy;

The intermediate layer that on protective layer, forms with palladium (Pd); With

The electroplating region that forms with gold (Au) or billon on the intermediate layer, the surface portion in intermediate layer exposes.

6. by the lead frame of claim 5, wherein, the thickness of electroplating region is under 0.03 microinch.

7. by the lead frame of claim 5, wherein, the Au alloy is Au-Pd alloy or Au-Ag (silver) alloy.